MIC2174-1YMM Micrel Inc, MIC2174-1YMM Datasheet - Page 12

MIC2174-1YMM

Manufacturer Part Number

MIC2174-1YMM

Description

IC BUCK SYNC ADJ 25A 10MSOP

Manufacturer

Micrel Inc

Series

Hyper Speed Control™r

Type

Step-Down (Buck)r

Datasheet

1.MIC2174-1YMM.pdf (27 pages)

Specifications of MIC2174-1YMM

Internal Switch(s)

Synchronous Rectifier

Yes

Number Of Outputs

Voltage - Output

0.8 ~ 5.5 V

Frequency - Switching

300kHz

Voltage - Input

3 ~ 5.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

10-MSOP, Micro10™, 10-uMAX, 10-uSOP

Power - Output

421mW

Primary Input Voltage

40V

No. Of Outputs

Output Current

25A

Voltage Regulator Case Style

MSOP

No. Of Pins

Operating Temperature Range

-40Â°C To +125Â°C

Svhc

No SVHC (15-Dec-2010)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Output

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

576-3546-5

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MIC2174-1YMM

Manufacturer:

Micrel Inc

Quantity:

135

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Micrel, Inc.

the FB voltage ripple, which occurs when V

is triggered through the control logic circuitry.

Figure 3 shows the load transient operation of the

MIC2174/MIC2174C converter. The output voltage drops

due to the sudden load increase, which causes the FB

voltage to be less than V

comparator to trigger an ON-time period. At the end of

the ON-time period, a minimum OFF-time T

generated to charge C

below V

due to the low FB voltage. Therefore, the switching

frequency changes during the load transient. With the

varying duty cycle and switching frequency, the output

recovery time is fast and the output voltage deviation is

small in MIC2174/MIC2174C converter.

Unlike in current-mode control, the MIC2174/MIC2174C

uses the output voltage ripple, which is proportional to

the inductor current ripple if the ESR of the output

capacitor is large enough, to trigger an ON-time period.

The MIC2174/MIC2174C predetermined ON-time control

loop has the advantage of constant ON-time mode

September 2010

REF

Figure 3. MIC2174/MIC2174C Load-Transient Response

Figure 2. MIC2174/MIC2174C Control Loop Timing

, the OFF period ends and the next ON-time period

REF

. Then, the next ON-time period is triggered

BST

REF

since the FB voltage is still

. This will cause the error

falls below

OFF(min)

control

compensation.

The MIC2174/MIC2174C has its own stability concern;

the FB voltage ripple should be in phase with the

inductor current ripple and large enough to be sensed by

the gm amplifier and the error comparator. The

recommended FB voltage ripple is 20mV~100mV. If a

low ESR output capacitor is selected, then the FB

voltage ripple may be too small to be sensed by the gm

amplifier and the error comparator. Also, the output

voltage ripple and the FB voltage ripple are not in phase

with the inductor current ripple if the ESR of the output

capacitor is very low. Therefore, the ripple injection is

required for a low ESR output capacitor. Please refer to

“Ripple Injection” subsection in “Application Information”

for more details about the ripple injection.

Soft-Start

Soft-start reduces the power supply input surge current

at startup by controlling the output voltage rise time. The

input surge appears while the output capacitor is

charged up. A slower output rise time will draw a lower

input surge current.

The MIC2174/MIC2174C implements an internal digital

soft-start by making the 0.8V reference voltage V

ramp from 0 to 100% in about 6ms with a 9.7mV step.

Therefore, the output voltage is controlled to increase

slowly by a stair-case V

cycle ends, the related circuitry is disabled to reduce

current consumption. V

than V

correctly.

Current Limit

The MIC2174/MIC2174C uses the R

side power MOSFET to sense over-current conditions.

This method will avoid adding cost, board space and

power losses taken by a discrete current sense resistor.

The low-side MOSFET is used because it displays much

lower parasitic oscillations during switching than the

high-side MOSFET.

In each switching cycle of the MIC2174/MIC2174C

converter, the inductor current is sensed by monitoring

the low-side MOSFET in the OFF period. The sensed

voltage is compared with a current-limit threshold

voltage V

voltage is over V

feedback voltage, then the MIC2174/MIC2174C turns off

the high-side MOSFET and a soft-start sequence is

triggered. This mode of operation is called “hiccup

mode” and its purpose is to protect the downstream load

in case of a hard short. The current limit threshold V

has a fold back characteristic related to the FB voltage.

Please refer to the “Typical Characteristics” for the curve

of V

vs. FB voltage.

HSD

that

after a blanking time of 150ns. If the sensed

to make the soft-start function behavior

eliminates

, which is 130mV typical at 0.8V

must be powered up no earlier

REF

the

ramp. Once the soft-start

need

MIC2174/MIC2174C

DS(ON)

M9999-091310-C

for

of the low-

the

slope

REF

MIC2174-1YMM Micrel Inc, MIC2174-1YMM Datasheet - Page 12

MIC2174-1YMM

Specifications of MIC2174-1YMM

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